Modular display unit and system for fabrication

ABSTRACT

A modular display unit. The modular display unit includes a core shelving element or elements and a variety of end caps. To achieve a desired shelving configuration desired end caps are selected, and the core shelving units are attached to the end caps. In alternative examples a customer may go on line and order a custom made shelving unit by specifying a configuration, cut-out design, graphic design, and surface finish. The modular display units are easily shipped as flat sheets that may be assembled by the end user. The products are eco-friendly, and may be easily recycled as they are made of paper fiber products.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of U.S. Provisional Patent Application No. 62/675,548 filed May 23, 2018. This application also claims the benefit of U.S. Provisional Patent Application No. 62/686,913 filed Jun. 19, 2018, the contents of all of which are hereby incorporated by reference.

TECHNICAL FIELD

This description relates generally to display furnishings and more specifically to paper based disposable or recyclable displays.

BACKGROUND

A display case (also called showcase, or display cabinet) is a cabinet typically with one or often more shelves, and at least one open side, used to display objects for viewing. A display case may appear in an exhibition, museum, retail store, restaurant, house or the like.

Display cases are typically made in wood or metal, and come in standard sizes or often are custom order. Store displays may often be made of cardboard and may easily be disposed of when no longer needed.

Trade shows also often use displays, and fixtures that are often disposed of at the end of the show or season. However, setting up and moving a trade show booth, or display can be a major undertaking. Accordingly, lightweight, disposable, and recyclable displays may be helpful.

SUMMARY

The following presents a simplified summary of the disclosure in order to provide a basic understanding to the reader. This summary is not an extensive overview of the disclosure and it does not identify key/critical elements of the invention or delineate the scope of the invention. Its sole purpose is to present some concepts disclosed herein in a simplified form as a prelude to the more detailed description that is presented later.

The present example provides: a display fixture device comprising: a substantially flat main body with a top edge, a bottom edge, and two side edges, divided into a plurality of walls, with one or more shelf slot apertures on each of the plurality of walls and one or more stand slot tabs on an edge of each of the plurality of walls. One or more substantially flat shelves having one or more shelf slot tabs and a plurality of edges corresponding to the plurality of walls. A substantially flat inner top having a plurality of edges equal to the plurality of walls and a number of stand slot apertures corresponding to the number of stand slot tabs. A substantially flat outer top. A substantially flat inner bottom having a plurality of edges equal to the plurality of walls and a number of stand slot apertures corresponding to the number of stand slot tabs; and a substantially flat outer bottom.

Many of the attendant features will be more readily appreciated as the same becomes better understood by reference to the following detailed description considered in connection with the accompanying drawings.

DESCRIPTION OF THE DRAWINGS

The present description will be better understood from the following detailed description read in light of the accompanying drawings, wherein:

FIG. 1 shows a first example of a single modular display unit.

FIG. 2 is a front view of the modular display unit.

FIG. 3 is a right view of the modular display unit.

FIG. 4 is a left view of the modular display unit, with the back view being identical.

FIG. 5 is a plan view showing the components used in the construction of the modular display unit.

FIG. 6 shows the construction of a modular display unit.

FIG. 7 shows a second example of a double wide modular display unit.

FIG. 8 shows the components of the top panel of the double wide modular display unit.

FIG. 9 shows a third example of an “L” shaped modular display unit.

FIG. 10 shows the components of the top panel of the “L” shaped modular display unit.

FIG. 11 shows a fourth example of a “quad” modular display unit.

FIG. 12 shows the components of the top panel of the “quad” shaped modular display unit.

FIG. 13 shows a fifth example of a linear modular display unit.

FIG. 14 shows a sixth example of a “L” shaped multiple modular display unit.

FIG. 15 shows a seventh example of a linear multiple modular display unit.

FIG. 16 shows a eighth example of an arch modular display unit.

FIG. 17 shows a ninth example of a modular display unit having apertures.

FIG. 18 shows a tenth example of a modular display unit having custom graphic designs.

FIG. 19 shows a first example of a wall display unit.

FIG. 20 shows the components of a wall display unit.

FIG. 21 shows a second, third, fourth, and fifth examples of a wall display unit.

FIG. 22 shows a first example of an interlock wall unit.

FIG. 23 shows the components of the interlock wall unit.

FIG. 24 shows the assembly of components of the interlock wall unit.

FIG. 25 shows an example of a paper based disposable pivot connector.

FIG. 26 shows an exploded view of the paper based disposable pivot connector.

FIG. 27 shows various uses of the paper based disposable pivot connector.

FIG. 28 shows an example of a paper based disposable hinge.

FIG. 29 shows an exploded view of the paper based disposable hinge.

FIG. 30 shows the components of the paper based disposable hinge.

FIG. 31 shows alternative examples of the paper based disposable hinge.

FIG. 32 shows a first inclined view of a disposable panel structure.

FIG. 33 shows a second inclined view of a disposable panel structure.

FIG. 34 shows a rear inclined view of a disposable panel structure.

FIG. 35 shows a process for constructing a user customized modular display unit.

FIG. 36 is an exemplary network in which the modular display unit may be implemented.

FIG. 37 illustrates an exemplary computing environment in which the modular display unit described in this application may be implemented.

Like reference numerals are used to designate like parts in the accompanying drawings.

DETAILED DESCRIPTION

The detailed description provided below in connection with the appended drawings is intended as a description of the present examples and is not intended to represent the only forms in which the present example may be constructed or utilized. The description sets forth the functions of the example and the sequence of steps for constructing and operating the example. However, the same or equivalent functions and sequences may be accomplished by different examples.

The examples below describe a modular display unit and a system for fabrication. Although the present examples are described and illustrated herein as being implemented in a paper based system, the system described is provided as an example and not a limitation. As those skilled in the art will appreciate, the present examples are suitable for application in a variety of different types of paper fiberboard or the like systems.

The modular display units described below provide a simple, easy solution as a display for conventions, conferences, libraries, dorms, apartments as a display for products or books. Modular display units can be used as a book shelf, product display or where space is of an issue. In its basic form modular display units have an exemplary footprint of only one square foot when set up as a single unit (100 of FIG. 1), two square feet as a double unit (700 of FIG. 7), three square feet as a triple unit (900 of FIG. 9), and four square feet as a quadruple unit (1100 of FIG. 11). Flexibility in configuration is provided by having a uniformly constructed core unit. One or more of which may be attached to a variety of end caps to provide various useful configurations.

By simply replacing the pieces that make up the single end cap (103 of FIG. 5) for a single unit, with pieces that make up the double end cap (701 of FIG. 7), modular display units can be set up as double unit (700 of FIG. 7). By replacing the pieces that make up the single end cap (103 of FIG. 5) with pieces that make up a triple end cap (901 of FIG. 10), modular display units can be set up as triple unit (900 of FIG. 9). By replacing the pieces that make up the single end cap (103 of FIG. 5) with a quad end cap (1101 of FIG. 12), modular display units can be set up as quadruple unit (1100 of FIG. 11). By providing appropriate end caps a variety of additional modular display units may be produced (for example FIGS. 13-15).

Modular display units can be assembled typically by one person in under 70 minutes without the use of tools or hardware. Modular display units may be up to 100% recyclable when made out of cellulose fiber, or other recyclable materials. Paper based construction typically does not use any harsh chemicals, making the display an environmentally friendly alternative. After use, Modular display units can simply be put in a recycling bin, providing an eco-friendly disposal solution.

FIG. 1 shows a first example of a single modular display unit. The compact design typically provides maximum storage in minimum footprint. Modular display unit 100 may be constructed of structural members such as the exemplary pair of end caps 103, and core assembly 101. The core typically includes a folded wrap around frame 107 that includes a plurality of shelves 105. For flexibility in use one or more core units 101 may be ordered with differing end caps to produce a desired shelf configuration as will be further described below.

Each of the members 103, 107, 105 are constructed of a material made from cellulose fiber (such as wood pulp or other fibrous substances) including, but not limited to: laminated paper, cardboard, chipboard, card stock, Falcon Board, Xanita Board, Re-Board, Converd Board, or paper. Structural members are typically inserted into the apertures to form a display without the use of hardware, making the display 100% recyclable. The entire Modular display units are lightweight, strong, and structurally stable. It is assembled completely by hand without using any tools or hardware. The Modular display units can be made from a variety of material thickness, with a typical preferred thickness of ½″.

FIG. 2 is a front view of the modular display unit.

FIG. 3 is a right view of the modular display unit.

FIG. 4 is a left view of the modular display unit, with the back view being identical. FIGS. 2-4 show the various side views of s singular modular display 100. Frame 107 is folded from a planar sheet that may be scored, let out or the like, so that shelves 105 having tabs 109 may be inserted in apertures disposed in the frame 103. The end caps 103 may then be installed to keep everything in place

FIG. 5 is a plan view showing the components used in the construction of the modular display unit. Principal components of the modular display unit include a pair of end caps 104, a plurality of shelves 105, and a frame unit 107.

The end caps 103 typically include a planar square or rectangular (although in alternative examples other shapes such as round, oval, hexagonal or the like are contemplated) outer piece 501. An inner piece 503 has a substantially identical outline as the outer piece 501. Inner piece 503 typically includes a plurality of apertures 525, 517 being punched or otherwise cut through the piece 503. The outer piece 501 is typically bonded, glued, or otherwise attached to the inner piece 503, with their outlines lined up. When tabs from the folded frame 107 are inserted into the apertures 517, 525 they will not protrude from the top. Each inner piece 503 includes three wide apertures 517 and a narrow aperture 525.

Shelves 105 are typically square, although in alternative examples rectangular shelves are contemplated. A plurality of tabs 521, 523 may be disposed about a perimeter of the shelf 105. Two long tabs are disposed on adjacent edges, each centered on their respective edges. Two short tabs 523 are disposed on the remaining two adjacent edges, and are positioned so that each short tab 523 is adjacent to the edge having the broader tab 521.

Frame 107 typically includes four side by side sections 505, 507, 509,506 laid out on the desired substrate. To aid in folding the substrate is scored, or otherwise let out, grooved or the like, with straight lines, typically in three locations 522, that separate each of the four sections.

The two inner sections 507,509 are generally rectangular, with at least one tab 519 disposed along each of their shorter edges. The shorter edges are equal in length. The irregular shaped outer sections 505, 506 abut their respective rectangular sections 507, 509. A series of horizontal apertures are disposed along a centerline 511 of the long axis of the first and second rectangular pieces 507, 509.

The exterior edges of the first curved piece 505, and the second curved piece 506, generally have an exponentially decreasing curved shape 516 (in alternative examples other curves, or straight lines are contemplated) on their exterior edge. At the beginning or base of the first and second curved pieces their width is equal to the width of the first and second rectangular pieces 507, 509, and include a tab 519 generally centered on the outer edge. At the opposite end of the first and second curved pieces 505, 506 the width has decreased to a desired width, and typically a single narrow tab 527 is disposed along the short edge. The wide ends of the first curved piece 505 and the second curved piece are disposed opposite from each other. The curved pieces 505, 50 g include a plurality of narrow apertures 515 that are in line with each other vertically, and in line horizontally with the wide aperture in the adjoining rectangular sections 507,509. Accordingly the frame 107 may be fabricated or cut out from stock in a step and repeat manner.

FIG. 6 shows the construction of a modular display unit. This diagram is an exploded view showing the alignment and interrelation of the assembled parts shown in the previous figure. The alignment of the inner 503 and outer 501 pieces of the end cap 103 are shown prior to their bonding together to form the unitary end piece, or cap 301.

In the core 101, a plurality of shelves 105, are assembled with their tabs being inserted into the corresponding apertures in the frame piece 107. As shown by the arrows the frame piece 107 is folded at its scored areas (scoring is on the outside of the folded frame). As the frame piece 107 is folded about the shelves 105, so that all of the shelf tabs are inserted into their corresponding frame 107 apertures the end caps 103 are attached to the folded frame 107, by inserting the tabs on the frame into the apertures on the inner piece 503 of the end cap 103. The outer piece 501 presents a smooth outer surface. In an alternative example the outer piece may be omitted allowing the tabs inserted into the inner piece 503 to be exposed.

In a typical assembly friction of the tabs against the aperture surfaces may be sufficient to hold the tabs in place in the aperture. However it is envisioned that in some applications the use of adhesives, tape, glue or the like might be used.

FIG. 7 shows a second example of a double wide modular display unit. In this example, two cores 101 have been arranged side by side. A rectangular end cap 701 with apertures corresponding to placement of the two cores 101 holds the two cores in place in two places (at each end).

FIG. 8 shows the components of the top panel of the double wide modular display unit 800. The outer piece 801 is planar and rectangular. Inner piece 803 has the same outer dimensions as outer piece 801. The placement of large apertures 522, and small apertures 525 act as keys to allow correct orientation of the core units (not shown) with respect to the double end cap 701. Also, so that the cores may be placed next together common aperture 805 is provided at typically twice the width as the other apertures 517, 525 to accommodate the double thickness of the sheeting from which the components are formed.

FIG. 9 shows a third example of an “L” shaped modular display unit 900. In this example three core units 101 are arranged to form a ninety degree corner. As previously described using three core units 101 with an appropriate end cap 901 allows the corner assembly to be made.

FIG. 10 shows the components of the top panel of the “L” shaped modular display unit 900. As previously described the unique arrangement of large apertures 517, and small apertures 524 allows the three core units (not shown) to be oriented properly during assembly, with the two double wide common apertures 105 each accommodating two tabs from an adjacent unit.

FIG. 11 shows a fourth example of a “quad” modular display unit 1101. In this example four core units 101 are arranged to form a ninety degree corner. As previously described using four core units 101 with an appropriate end cap 1101 allows the corner assembly 1101 to be made.

FIG. 12 shows the components of the top panel of the “quad” shaped modular display unit. As previously described the unique arrangement of large apertures 517, and small apertures 524 allows the four core units (not shown) to be oriented properly during assembly, with the four double wide common apertures 105 each accommodating two tabs from an adjacent unit.

FIG. 13 shows a fifth example of a linear modular display unit 1300. This example illustrates the type of construction where any number of cores 101 may be arranged side by side, by using an end cap 1301 constructed utilizing the techniques previously described to hold the cores 101 together.

FIG. 14 shows a sixth example of a “L” shaped multiple modular display unit 1400. This example illustrates the type of construction where any number of cores 101 may be arranged side by side coming off at right angles to a corner unit, by using an end cap 1401 constructed utilizing the techniques previously described to hold the cores 101 together. In alternative examples the number of units 101 coming off of the corner need not be the same.

FIG. 15 shows a seventh example of a linear multiple modular display unit 1500. This example illustrates the type of construction where any number of cores 101 may be arranged side by side and back to back in a double row, by using an end cap 1501 constructed utilizing the techniques previously described to hold the cores 101 together.

FIG. 16 shows a eighth example of an arch modular display unit 1600. This example illustrates the concept that the core unit 1601 may be shortened and lengthened, and modified to include a varying number of shelves (here one). Also the top cap 1603 differs from the bottom cap 1605, as the top cap acts to separate the core units so that a desk, arch or the like may be formed.

FIG. 17 shows a ninth example of a modular display unit having apertures 1700. Here apertures of at least one size of a plurality of size have been added to the frame 1707. In alternative examples apertures or cut outs of any desired pattern or shape may be fabricated. This core 1701 may be substituted for, or mingled with the previously described cores.

FIG. 18 shows a tenth example of a modular display unit having custom graphic designs 1800. Here designs of at least one type have been printed to the frame 1707, front and back (or one or the other). In alternative examples any desired pattern or may be fabricated and added to the shelves 105 as well. This core 1801 may be substituted for, or mingled with the previously described cores.

FIG. 19 shows a first example of a wall display unit 1900. The wall display unit offers a simple, easy solution for tradeshow displays, conventions and conferences as a back drop for products, services and information. The wall display unit can be used to hang a variety of products by simply using standard slatwall accessories. The wall display unit is up to 100% recyclable when made out of cellulose fiber, or other recyclable materials. After use, the wall display unit can simply be put in a recycling bin, providing an ECO friendly solution.

The disposable paper based slat wall 1900 is constructed of structural members 1901, 1903, 1905. Each of these members are constructed of a material made from cellulose fiber (such as wood pulp or other fibrous substances) including, but not limited to: laminated paper, cardboard, chipboard, card stock, Falcon Board, Xanita Board, Re-Board, Converd Board, or paper. Structural members may be glued together with water based adhesive or low VOC mounting adhesive making the slat wall 1900 100% recyclable.

The wall display unit 1900 works with all standard slat wall accessories. The entire wall is lightweight, strong, and structurally stable. It is assembled completely by hand without using any tools or hardware. The wall display unit can be made from a variety of material thickness. Preferred thickness for the front panel 1901 is ¼″. Preferred thickness for the core or middle panel 1903 is ½″. Preferred thickness for Back Panel 1905 is ½″. Slats can be cut in a variety of patterns.

FIG. 20 shows the components of a wall display unit including the meander patterns. The front panel 1901 through which the hangers and the like may be inserted has a narrower slot width than the groves in the middle panel 1903 that must accommodate a hanger back. The back panel 1905 provides support for a hanger to push against, keeping it in place.

FIG. 21 shows various examples of a wall display unit 2900. As shown a variety of patterns 2101, 2103, 2105, 2107, 2109, 2111 may be produced.

FIG. 22 shows a first example of an interlock wall unit 2200. The interlock wall offers a simple, easy solution for tradeshow displays, conventions, conferences and events as a back drop for products, services, information or as a room divider. The interlock wall is up to 100% recyclable when made out of cellulose fiber. After use, the interlock wall can be simply put in a recycling bin, providing an ECO friendly solution. Disposable paper based Interlock Wall 2200 may be constructed of structural members 2201, 2202, 2203, 2204. Each of these members are constructed of a material made from cellulose fiber (such as wood pulp or other fibrous substances) including, but not limited to: laminated paper, cardboard, chipboard, card stock, Falcon Board, Xanita Board, Re-Board, Converd Board, or paper.

FIG. 23 shows the components of the interlock wall unit 2201, 2202, 2203, 2204. Structural members 2201, 2202, 2203, 2204 are held together by simply sliding into each other. Interlock Wall can be made from a variety of material thickness. Preferred thickness is ½″. The interlock wall structure can be assembled into a variety of sized walls.

FIG. 24 shows the assembly of components of the interlock wall unit. This illustration shows how the previously discussed components, may be assembled to form the core of the wall, corners and edges.

FIG. 25 shows an example of a paper based disposable pivot connector. The paper based disposable pivot connector con pivot 360° making it versatile in many applications. The paper based disposable pivot connector is up to 100% recyclable when mode out of cellulose fiber. After use, the paper based disposable pivot connector con simply be put in a recycling bin, providing on ECO friendly solution.

FIG. 26 shows an exploded view of the paper based disposable pivot connector. The paper based disposable pivot connector is constructed of structural members 2601, 2602, 2603, 2604, 2605. The paper based disposable pivot connector con pivot 360° making it versatile in many applications. Each of these members ore constructed of a material mode from cellulose fiber such as wood pulp or other fibrous substances) including, but not limited to: laminated paper, cardboard, chipboard, cord stock, Falcon Board, Xanita Board, Re-Board, Converd Board, or paper. Structural members ore glued together with water based adhesive or low VOC mounting adhesive making the paper based disposable pivot connector 100% recyclable. Structural members can also be glued together with standard adhesives. The paper based disposable pivot connector can be mode from a variety of material thickness. Preferred thickness is ½″ for the structural members 2601 and 2605, ¼″ for the structural members 2603 and 2604, and 1″ for the structural member 2602.

The paper based disposable pivot connector offers a simple, ECO friendly solution as paper based connector. The paper based disposable pivot connector is up to 1 00% recyclable when made out of cellulose fiber. After use, The paper based disposable pivot connector can simply be put in a recycling bin, providing an ECO friendly solution.

FIG. 27 shows various uses of the paper based disposable pivot connector 2500. The paper based disposable pivot connector offers a simple, easy solution for tradeshow displays, conventions and conferences as a pivot connector that can be used in Sandwich-Board signs 2703, room dividers 2701, easels 2705, door hinges as well as in other uses.

FIG. 28 shows an example of a paper based disposable hinge.

FIG. 29 shows an exploded view of the paper based disposable hinge.

FIG. 30 shows the components of the paper based disposable hinge.

FIG. 31 shows alternative examples of the paper based disposable hinge.

FIG. 32 shows a first inclined view of a disposable panel structure.

The disposable panel structure offers a simple, easy to assemble, solution for tradeshow displays, conventions and conferences as a back drop for products, services and information. The tool-free design offers a hassle-free assembly. All connectors simply slide into the panels to hold the construction together. The disposable panel structure is up to 100% recyclable when made out of cellulose fiber, or other recyclable material. After use, the disposable panel structure can simply be put in a recycling bin, providing an ECO friendly solution.

The disposable panel structure is constructed of partitions including structural members 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11 that form vertical and horizontal connectors 4, 5, 6, 7 which simply slide into the slits of the structural members 1, 2, 3, 8, 10 to form the disposable panel structure. Each of these members are constructed of a material made from cellulose fiber (such as wood pulp or other fibrous substances) or any rigid material including, but not limited to: laminated paper, cardboard, chipboard, card stock, Falcon Board, Xanita Board, Re-Board, Convered Board, paper, MOO, Plywood, MDF, Particle board, Coroplast, Sintra, PVC, Aluma Light, DiBond. The disposable panel structure can be made in a range of material thickness from ⅛″ and up. Preferred thickness of the material is ½″. Vertical and horizontal connectors 4, 5, 6, connect structural members together to form walls. The entire wall is extremely lightweight, strong, and structurally stable. It is designed to be assembled completely by hand without using any tools or hardware.

FIG. 33 shows a second inclined view of a disposable panel structure.

FIG. 34 shows a rear inclined view of a disposable panel structure.

FIG. 35 shows a process for constructing a user customized modular display unit. First a user logs into their account 3501 which may store previous design, previous order, payment info, shipping information and the like. At block 3503 the customer may configure ty type and quantity of units from standard available components. At block 3505 the material, including the core and surface may be selected. At block 3507 various standard and custom aperture patterns may be selected or downloaded. At block 3509 a graphic design to be printed on one or more of the components may be selected, or downloaded, as well as color selections. At block 3511 a surface finish may be selected, and the unit may finally be previewed before ordering. Finally at block 3501 the customer may enter payment and delivery information. Optionally if the customer is interrupted at any block, the design in progress may be saved.

FIG. 36 is an exemplary network in which the modular display unit may be implemented. Computer 3615 may be a server computer coupled to a user's computer 3620 through a conventionally constructed local area network 3625.

In the local area network the users computer is typically part of the local area network 3625 which may include a plurality conventional computers (not shown) and conventional peripheral equipment (not shown) coupled together utilizing topologies (token, star and the like) and switching equipment known to those skilled in the art. Those skilled in the art will realize that other processor equipped devices such as televisions and VCRs with electronic program guides, cellular telephones, appliances and the like may be coupled to the internet utilizing conventional techniques known to those skilled in the art.

A typical local area network 3625 may include a conventionally constructed ISP network in which a number or plurality of subscribers utilize telephone dial up, ISDN, DSL, cellular telephone, cable modem, or the like connections to couple their computer to one or more server computers 3615 that provide a connection to the world wide web 3635 via the internet 3630.

Wide area network or world wide web 3635 is conventionally constructed and may include the internet 3630 or equivalent coupling methods for providing a wide area network. As shown a conventionally constructed first server computer 3610 is coupled to conventionally constructed second server computer 3615 through a conventionally constructed internet connection to the world wide web 3630.

In a peer to peer network a Peer computer 3640 is conventionally constructed to couple to the internet 3630 utilizing peer to peer network technology. Peer computer 3640 may couple to a plurality of similarly connected peer computers in a peer to peer network (not shown), or to other computers 3601, 3620 that are part of conventionally constructed networks 3625, 3635.

In a conventional wireless network 3605 a conventionally constructed computer 3601 is coupled to the internet 3630 via a conventionally constructed wireless link 3645. The wireless link may include cellular, and satellite technology 3655 to provide the link. Such a wireless network may include a conventionally constructed first server computer 3610, typically provided to manage connections to a wide area network such as the internet. Those skilled in the art will realize that the computer 3601 may be embodied as a processor coupled to the electronics of an automobile, and referred to as an automotive processor. Such a processor coupled to the internet may be used to find directions, report trouble or communicate with global positioning systems to determine position.

A conventionally constructed back link may be provided to efficiently provide an additional channel to couple to the internet. For example in situations where communication is one way in nature, the back link may provide communications in the opposite direction. An example would be viewing a listing of available on demand movies and ordering a selection via telephone 3640. Those skilled in the art will realize that back links may equivalently be provided by cellular telephones, cordless telephones, paging devices and the like.

FIG. 37 illustrates an exemplary computing environment in which the modular display unit described in this application, may be implemented. The exemplary computing environment 3700 is only one example of a computing system and is not intended to limit the examples described in this application to this particular computing environment.

For example the computing environment 3700 can be implemented with numerous other general purpose or special purpose computing system configurations. Examples of well known computing systems, may include, but are not limited to, personal computers, hand-held or laptop devices, microprocessor-based systems, multiprocessor systems, set top boxes, gaming consoles, consumer electronics, cellular telephones, PDAs, and the like.

The computer 3700 includes a general-purpose computing system in the form of a computing device 3701. The components of computing device 3701 can include one or more processors (including CPUs, GPUs, microprocessors and the like) 3707, a system memory 3709, and a system bus 3708 that couples the various system components. Processor 3707 processes various computer executable instructions, including those to ** and to control the operation of computing device 3701 and to communicate with other electronic and computing devices (not shown). The system bus 3708 represents any number of several types of bus structures, including a memory bus or memory controller, a peripheral bus, an accelerated graphics port, and a processor or local bus using any of a variety of bus architectures.

The system memory 3709 includes computer-readable media in the form of volatile memory, such as random access memory (RAM), and/or non-volatile memory, such as read only memory (ROM). A basic input/output system (BIOS) is stored in ROM. RAM typically contains data and/or program modules that are immediately accessible to and/or presently operated on by one or more of the processors 3707.

Mass storage devices 3704 may be coupled to the computing device 3701 or incorporated into the computing device by coupling to the buss. Such mass storage devices 3704 may include a magnetic disk drive which reads from and writes to a removable, non volatile magnetic disk (e.g., a “floppy disk”) 3705, or an optical disk drive that reads from and/or writes to a removable, non-volatile optical disk such as a CD ROM or the like 3706. Computer readable media 3705, 3706 typically embody computer readable instructions, data structures, program modules and the like supplied on floppy disks, CDs, portable memory sticks and the like.

Any number of program modules can be stored on the hard disk 3710, Mass storage device 3704, ROM and/or RAM 3709, including by way of example, an operating system, one or more application programs, other program modules, and program data. Each of such operating system, application programs, other program modules and program data (or some combination thereof) may include an embodiment of the systems and methods described herein.

A display device 3702 can be connected to the system bus 3708 via an interface, such as a video adapter 3711. A user can interface with computing device 702 via any number of different input devices 3703 such as a keyboard, pointing device, joystick, game pad, serial port, and/or the like. These and other input devices are connected to the processors 3707 via input/output interfaces 3712 that are coupled to the system bus 3708, but may be connected by other interface and bus structures, such as a parallel port, game port, and/or a universal serial bus (USB).

Computing device 3700 can operate in a networked environment using connections to one or more remote computers through one or more local area networks (LANs), wide area networks (WANs) and the like. The computing device 3701 is connected to a network 3714 via a network adapter 3713 or alternatively by a modem, DSL, ISDN interface or the like.

Those skilled in the art will realize that the process sequences described above may be equivalently performed in any order to achieve a desired result. Also, sub-processes may typically be omitted as desired without taking away from the overall functionality of the processes described above.

Those skilled in the art will realize that storage devices utilized to store program instructions can be distributed across a network. For example a remote computer may store an example of the process described as software. A local or terminal computer may access the remote computer and download a part or all of the software to run the program. Alternatively the local computer may download pieces of the software as needed, or distributively process by executing some software instructions at the local terminal and some at the remote computer (or computer network). Those skilled in the art will also realize that by utilizing conventional techniques known to those skilled in the art that all, or a portion of the software instructions may be carried out by a dedicated circuit, such as a DSP, programmable logic array, or the like.

1. A display fixture device comprising:

a substantially flat main body with a top edge, a bottom edge, and two side edges, divided into a plurality of walls, with one or more shelf slot apertures on each of the plurality of walls and one or more stand slot tabs on an edge of each of the plurality of walls;

one or more substantially flat shelves having one or more shelf slot tabs and a plurality of edges corresponding to the plurality of walls;

a substantially flat inner top having a plurality of edges equal to the plurality of walls and a number of stand slot apertures corresponding to the number of stand slot tabs;

a substantially flat outer top;

a substantially flat inner bottom having a plurality of edges equal to the plurality of walls and a number of stand slot apertures corresponding to the number of stand slot tabs; and

a substantially flat outer bottom.

2. The display fixture device of claim 1, wherein the outer top and inner top are coupled together by their faces.

3. The display fixture of claim 2, wherein the outer bottom and inner bottom are coupled together by their faces.

4. The display fixture of claim 1, wherein one or more edges of the main body are cut into a curve.

5. The display fixture of claim 1, wherein the one or more stand slot tabs and one or more shelf slot tabs are tapered.

6. The display fixture of claim 1, wherein the one or more stand slot tabs and one or more stand slot apertures are substantially the same width and couple together frictionally.

7. The display fixture of claim 1, wherein the one or more shelf slot tabs and one or more shelf slot apertures are substantially the same width and couple together frictionally.

8. The display fixture of claim 1, further comprising a second main body substantially similar to the main body and configured to couple to the top and bottom parallel to the main body.

9. The display fixture of claim 1, wherein the top is has one or more additional stand slot apertures configured to receive a plurality of additional main bodies.

10. The display fixture of claim 9, wherein the bottom has one or more additional stand slot apertures configured to receive a plurality of additional main bodies.

11. The display fixture of claim 9, further comprising a second bottom substantially identical to the bottom.

12. The display fixture of claim 4, wherein the divisions of the walls are formed by scoring the main body perpendicular to the top and bottom edges.

13. The display fixture of claim 12, wherein the main body folds parallel to the divisions to create a column with a curved opening.

14. The display fixture of claim 1, wherein the fixture is comprised of a fiber-based material.

15. The display fixture of claim 1, wherein the shelf slot tabs are greater in height than the shelf slot apertures are in depth and emerge on an outer side of the walls.

16. The display fixture of claim 1, wherein the fixture is comprised of a corrugated material.

17. The display fixture of claim 1, wherein the shelf slot apertures are positioned on the walls such that the one or more shelves are parallel to the top and bottom when the shelf slot tabs are inserted into them.

18. The display fixture of claim 1, wherein the corrugated material has a thickness of at least one-eighth of an inch.

19. The display fixture of claim 1, wherein the fixture is comprised of a recyclable material.

20. A display fixture device comprising:

a substantially flat and rectangular main body with a top edge, a bottom edge and two side edges divided into four sections with one or more shelf slots in each section wherein the one or more shelf slots are parallel to the top edge, one or more stand tabs on the top edge and bottom edge of each section, and the side edges are cut into curves;

one or more substantially flat and rectangular shelves with four sides with four edges and one or more shelf tabs that correspond to the one or more shelf slots along each of the four edges;

a top comprised of a substantially flat and rectangular outer layer and a substantially flat and rectangular inner layer wherein the inner layer has one or more stand apertures on its surface configured to receive a stand tap;

a bottom comprised of a substantially flat and rectangular outer layer and a substantially flat and rectangular inner layer wherein the inner layer has one or more stand apertures on its surface configured to receive a stand tap. 

1. A display fixture device comprising: a substantially flat main body with a top edge, a bottom edge, and two side edges, divided into a plurality of walls, with one or more shelf slot apertures on each of the plurality of walls and one or more stand slot tabs on an edge of each of the plurality of walls; one or more substantially flat shelves having one or more shelf slot tabs and a plurality of edges corresponding to the plurality of walls; a substantially flat inner top having a plurality of edges equal to the plurality of walls and a number of stand slot apertures corresponding to the number of stand slot tabs; a substantially flat outer top; a substantially flat inner bottom having a plurality of edges equal to the plurality of walls and a number of stand slot apertures corresponding to the number of stand slot tabs; and a substantially flat outer bottom.
 2. The display fixture device of claim 1, wherein the outer top and inner top are coupled together by their faces.
 3. The display fixture of claim 2, wherein the outer bottom and inner bottom are coupled together by their faces.
 4. The display fixture of claim 1, wherein one or more edges of the main body are cut into a curve.
 5. The display fixture of claim 1, wherein the one or more stand slot tabs and one or more shelf slot tabs are tapered.
 6. The display fixture of claim 1, wherein the one or more stand slot tabs and one or more stand slot apertures are substantially the same width and couple together frictionally.
 7. The display fixture of claim 1, wherein the one or more shelf slot tabs and one or more shelf slot apertures are substantially the same width and couple together frictionally.
 8. The display fixture of claim 1, further comprising a second main body substantially similar to the main body and configured to couple to the top and bottom parallel to the main body.
 9. The display fixture of claim 1, wherein the top is has one or more additional stand slot apertures configured to receive a plurality of additional main bodies.
 10. The display fixture of claim 9, wherein the bottom has one or more additional stand slot apertures configured to receive a plurality of additional main bodies.
 11. The display fixture of claim 9, further comprising a second bottom substantially identical to the bottom.
 12. The display fixture of claim 4, wherein the divisions of the walls are formed by scoring the main body perpendicular to the top and bottom edges.
 13. The display fixture of claim 12, wherein the main body folds parallel to the divisions to create a column with a curved opening.
 14. The display fixture of claim 1, wherein the fixture is comprised of a fiber-based material.
 15. The display fixture of claim 1, wherein the shelf slot tabs are greater in height than the shelf slot apertures are in depth and emerge on an outer side of the walls.
 16. The display fixture of claim 1, wherein the fixture is comprised of a corrugated material.
 17. The display fixture of claim 1, wherein the shelf slot apertures are positioned on the walls such that the one or more shelves are parallel to the top and bottom when the shelf slot tabs are inserted into them.
 18. The display fixture of claim 1, wherein the corrugated material has a thickness of at least one-eighth of an inch.
 19. The display fixture of claim 1, wherein the fixture is comprised of a recyclable material.
 20. A display fixture device comprising: a substantially flat and rectangular main body with a top edge, a bottom edge and two side edges divided into four sections with one or more shelf slots in each section wherein the one or more shelf slots are parallel to the top edge, one or more stand tabs on the top edge and bottom edge of each section, and the side edges are cut into curves; one or more substantially flat and rectangular shelves with four sides with four edges and one or more shelf tabs that correspond to the one or more shelf slots along each of the four edges; a top comprised of a substantially flat and rectangular outer layer and a substantially flat and rectangular inner layer wherein the inner layer has one or more stand apertures on its surface configured to receive a stand tap; a bottom comprised of a substantially flat and rectangular outer layer and a substantially flat and rectangular inner layer wherein the inner layer has one or more stand apertures on its surface configured to receive a stand tap. 